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Length scales in glass-forming liquids and related systems: a review

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dc.contributor.author Karmakar, Smarajit
dc.contributor.author Dasgupta, Chandan
dc.contributor.author Sastry, Srikanth
dc.date.accessioned 2017-01-24T06:43:49Z
dc.date.available 2017-01-24T06:43:49Z
dc.date.issued 2016
dc.identifier.citation Karmakar, S.; Dasgupta, C.; Sastry, S., Length scales in glass-forming liquids and related systems: a review. Reports on Progress in Physics 2016, 79 (1), 36 http://dx.doi.org/10.1088/0034-4885/79/1/016601 en_US
dc.identifier.citation Reports on Progress In Physics en_US
dc.identifier.citation 79 en_US
dc.identifier.citation 1 en_US
dc.identifier.issn 0034-4885
dc.identifier.uri https://libjncir.jncasr.ac.in/xmlui/10572/2243
dc.description Restricted Access en_US
dc.description.abstract The central problem in the study of glass-forming liquids and other glassy systems is the understanding of the complex structural relaxation and rapid growth of relaxation times seen on approaching the glass transition. A central conceptual question is whether one can identify one or more growing length scale(s) associated with this behavior. Given the diversity of molecular glass-formers and a vast body of experimental, computational and theoretical work addressing glassy behavior, a number of ideas and observations pertaining to growing length scales have been presented over the past few decades, but there is as yet no consensus view on this question. In this review, we will summarize the salient results and the state of our understanding of length scales associated with dynamical slow down. After a review of slow dynamics and the glass transition, pertinent theories of the glass transition will be summarized and a survey of ideas relating to length scales in glassy systems will be presented. A number of studies have focused on the emergence of preferred packing arrangements and discussed their role in glassy dynamics. More recently, a central object of attention has been the study of spatially correlated, heterogeneous dynamics and the associated length scale, studied in computer simulations and theoretical analysis such as inhomogeneous mode coupling theory. A number of static length scales have been proposed and studied recently, such as the mosaic length scale discussed in the random first-order transition theory and the related point-to-set correlation length. We will discuss these, elaborating on key results, along with a critical appraisal of the state of the art. Finally we will discuss length scales in driven soft matter, granular fluids and amorphous solids, and give a brief description of length scales in aging systems. Possible relations of these length scales with those in glass-forming liquids will be discussed. en_US
dc.description.uri 1361-6633 en_US
dc.description.uri http://dx.doi.org/10.1088/0034-4885/79/1/016601 en_US
dc.language.iso English en_US
dc.publisher IoP Publishing Ltd en_US
dc.rights @IoP Publishing Ltd, 2016 en_US
dc.subject Physics en_US
dc.subject glass forming liquids en_US
dc.subject glasses en_US
dc.subject structrual relaxation en_US
dc.subject length scales en_US
dc.subject glass transition en_US
dc.subject amorphous solids en_US
dc.subject Spatially Heterogeneous Dynamics en_US
dc.subject Bond-Orientational Order en_US
dc.subject Growing Amorphous Order en_US
dc.subject Jones Binary-Mixture en_US
dc.subject Mode-Coupling Theory en_US
dc.subject Mean-Field Potts en_US
dc.subject Supercooled Liquids en_US
dc.subject Structural Glasses en_US
dc.subject Activated Dynamics en_US
dc.subject Colloidal Glasses en_US
dc.title Length scales in glass-forming liquids and related systems: a review en_US
dc.type Review en_US


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